[1] Bruscke, M.V. and Advani, S.G. “A numerical Approach to model, Non-isothermal, viscous flow with free surface through fibrous media” Int. J. Numer. Methods Fluids, 19, P. 575 (1994).
[2] Liu, B. and Advani, S.G. “Operator splitting scheme for 3-D flow approximation” Computational Mechanics, J., 38, P. 74 (1995).
[3] C. Tucker. C.L. and Dessenberger. R.B., “Governing equations for flow and heat transfer in stationary fiber beds” In flow and Rheology in Polymer Composites Manufacturing, chap.8,edited by, S.G. Advani, Elsevier, Amsterdam, p. 257-323 (1994).
[4] Dessenberger, R. D. and Tucker, C. L., “ Thermal dispersion in resin transfer molding”, polymer composites, 16 (6) 495 (1995).
[5] Mal, O., Couniut, A. and Depert, F., “ Non-isothermal simulation of the resin transfer molding process”, Composites part A, 29,p. 180 (1998).
[6] Castro. J. and Macosko. C., “Studies of mold filling and curing in the reaction injection molding process”, AIChe., J. 2000, 28, 250 (1982).
[7] Shahnazari, M.R., Abbassi, A., Transient Numerical Simulation of Non-Isothermal process of RTM, proccedings of 4th ASME/JSME joint Fluid Engineeing, FEDSM`03, july 6-11 Hawaii, USA, (2003).
[8] Kaviany, M., Principle of Heat Transfer in Porous Media, Springer-Verlag, New York, (1991).
[9] Hsiao, K.T., Loudorn, H. and Advani, S. G., Experimental investigation of heat dispersion due to impregnation of viscous fluids in heated fibrous porous during composites processing, Journal of Heat Transfer, 123, P. 178 (2001).